A very compact nozzle assembly 100, 200, 300 and spray head for an automotive washer nozzle is configured for inclusion into an automotive trim component. The compact nozzle assembly and spray head generate a very effective cleaning spray at a selected spray fan angle, yaw angle and roll angle and,
A very compact nozzle assembly 100, 200, 300 and spray head for an automotive washer nozzle is configured for inclusion into an automotive trim component. The compact nozzle assembly and spray head generate a very effective cleaning spray at a selected spray fan angle, yaw angle and roll angle and, in an exemplary embodiment, the spray fan is dual shear shaped, producing an even distribution, which may be varied from 30° to 120°. Spray head may be as small as 5 mm in diameter and be aimed to provide a spray with various spray aim, yaw and roll angles. The design accounts for better mold ability and versatility of application.
대표청구항▼
1. A compact spray head for use in automotive washer nozzle assembly, comprising: a molded compact shear spray nozzle member having an open proximal end in fluid communication with an interior lumen with tapering transition regions having progressively smaller internal lumen cross sectional areas;sa
1. A compact spray head for use in automotive washer nozzle assembly, comprising: a molded compact shear spray nozzle member having an open proximal end in fluid communication with an interior lumen with tapering transition regions having progressively smaller internal lumen cross sectional areas;said lumen terminating distally in a distal shear-spray generating chamber having an elongated spray orifice with a first orifice edge opposite a second orifice edge,said distal shear-spray generating chamber also having a first concave wall segment defining a first fluid impingement angle, wherein said first concave wall segment terminates in the first spray orifice edge;said distal shear-spray generating chamber also having a second concave wall segment defining a second fluid impingement angle, wherein said second concave wall segment terminates in the second spray orifice edge; andsaid molded compact shear spray nozzle member terminating in a distal substantially hemispherical shaped exterior surface and wherein said spray orifice is configured to generate an outwardly projecting fluid spray fan. 2. The compact spray head of claim 1, wherein said spray orifice is defined around a splitter to define first and second aligned throat outlets configured to produce first and second substantially co-planar fan-shaped sprays, with even spray distribution, which is selected from within the range of 30° to 120°. 3. The compact spray head of claim 1, wherein said substantially hemispherical shaped exterior surface has an external diameter of 5 mm. 4. The compact spray head of claim 1, wherein said distal shear-spray generating chamber and said spray orifice are configured to generate sprays in selected spray aim, yaw and roll angles. 5. The compact spray head of claim 2, wherein said substantially hemispherical shaped exterior surface is configured with exterior notch wall segments and said splitter defining said first and second aligned throat outlets. 6. The compact spray head of claim 2, wherein said first and second substantially co-planar fan-shaped sprays are formed having a spray fan angle defined by a height and width of an elliptical orifice as divided by said splitter to define throat exits or spray orifices. 7. The compact spray head of claim 2, wherein the spray has a yaw that is asymmetrical and wherein a first laterally spaced spray orifice has a greater opening than a second laterally spaced spray orifice to produce relatively wide spray angle with a uniform spray that is formed from the combination of a first spray fan from the first laterally spaced spray orifice and a second spray fan from the second laterally spaced spray orifice where the combination of the spray fans does not foam where the two fans meet. 8. A compact shear spray nozzle assembly, comprising: a molded compact shear spray insert member having a fluid channel with a proximal end, said fluid channel further comprising tapering transition regions having progressively smaller internal fluid channel cross sectional areas;said fluid channel terminating distally in a distal shear-spray generating chamber having an elongated spray orifice with a first orifice edge opposite a second orifice edge, said distal shear-spray generating chamber also having a first concave wall segment defining a first fluid impingement angle, wherein said first concave wall segment terminates in the first spray orifice edge;said distal shear-spray generating chamber also having a second concave wall segment defining a second fluid impingement angle, wherein said second concave wall segment terminates in the second spray orifice edge; andsaid molded compact shear spray insert member terminating in a distal exterior surface and wherein said spray orifice is configured to generate an outwardly projecting fluid spray fan. 9. The compact shear spray nozzle assembly of claim 8, wherein said spray orifice is defined around an inwardly projecting splitter positioned to define first and second aligned throat outlets configured to produce first and second substantially co-planar fan-shaped sprays, with even spray distribution, which is selected from within the range of 30° to 120°. 10. The compact shear spray nozzle assembly of claim 8, further comprising a nozzle assembly housing that defines an interior lumen with at least one slot and an exterior surface wherein said insert member is configured to be installed within said at least one slot, said nozzle assembly housing has a distal end from which said sprays project having an external diameter of 5 mm. 11. The compact shear spray nozzle assembly of claim 8, wherein said distal shear-spray generating chamber and said spray orifice are configured to generate sprays in various spray aim, yaw and roll angles. 12. The compact shear spray nozzle assembly of claim 9, wherein the spray has a yaw that is asymmetrical and wherein a first laterally spaced spray orifice has a greater opening than a second laterally spaced spray orifice to produce a relatively wide spray angle with a uniform spray that is formed from the combination of a first spray fan from the first laterally spaced spray orifice and a second spray fan from the second laterally spaced spray orifice where the combination of the spray fans does not foam where the two fans meet. 13. The compact shear spray nozzle assembly of claim 9, wherein said shear chamber and said spray orifice are defined around a second inwardly projecting splitter positioned to define first, second and third aligned throat outlets configured to produce first, second and third substantially co-planar fan-shaped sprays, with even spray distribution, which is selected from within the range of 30° to 120°. 14. The compact shear spray nozzle assembly of claim 13, wherein the spray has a yaw that is asymmetrical and wherein a first laterally spaced spray orifice has a greater opening than a second laterally spaced spray orifice to produce a relatively wide spray angle with a uniform spray that is formed from the combination of a first spray fan from the first laterally spaced spray orifice and a second spray fan from the second laterally spaced spray orifice where the combination of the spray fans does not foam where the two fans meet. 15. The compact shear spray nozzle assembly of claim 14, wherein said insert member's exterior surface is defined by a fluid impermeable cap member which encloses said insert member.
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이 특허에 인용된 특허 (11)
Russell, Gregory; Steerman, Dan, Adjustable fluidic sprayer.
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